Blogs

test2

Boba F. | 23.03.2022 0 0

payload

test2

Boba F. | 23.03.2022 1 5

payload

payload_title"/>

Boba F. | 05.04.2022 0 0

alert(1);

Reden

Sauna Obensitzer | 15.05.2023 0 0

Schlimmer isr es noch, wenn sie genauso handeln wie sie reden. Denjenigen schlecht machen, aber selbst genauso sind. Ich denke das ist das Niveau auf dem sich diese Menschen selbst wohlfühlen

Mag ja sein;

Peter KO | 23.07.2023 0 0

Mag ja sein;
dass die Welt in der wir leben, tatsächlich einen Sinn hat
und eine Lebensrichtung,
nur wahr und ist dies ist nicht wirklich mein Problem.
Das Problem für mich ist eher, die Welt selbst,
ihr Vorhandensein, ihr plumpes undurchdringliches Dasein;
selbst wenn es diese viel besagten „Götter“ gebe,
die angeblich hinter dieser Welt stehen, die ihr
„Sinn und Richtung“ geben;
so gehören diese genauso zum sein, wie alles andere,
nur eben etwas tiefer hinter den Kulissen versteckt,;
aber was ist „Sein“ wirklich !?
.
Mir selbst genügt dies Erklärung des „Seins“ nicht,
auch nicht das Diesseits, ich möchte gerne dahinter sehen,
also irgendwie Bedarf an Metaphysik …
.
Ich glaube, wir sind alle gefangene dieses Seins, der Welt,
es mag ja groß oder weniger groß sein,
himmlisch oder teuflisch, schön geordnet oder eben nur
ein Haufen gestaltloser Materie,
aber dies spielt letztlich keine Rolle.
,
Ich für meinen Teil,
drohe langsam zu ersticken an all den unlösbaren Rätseln,
dass es diese Welt, wie sie ist mit uns mittendrin
überhaupt gibt, aber sollte man überhaupt den Versuch machen
„dahinter“ zu kommen; oder wird man dann Wahnsinnig !?
.
Schließlich würde vermutlich jeder eigentlich wahnsinnig werden
der versucht, ernsthaft dahinter zu sehen;
denn unser Verstand ist nicht dazu geschaffen, es zu verstehen;
schließlich ist er ja auch nur ein Teil dieses Rätsels …
Sicher keiner verlangt uns, es zu begreifen oder dahinter zu sehen.
.
Es ist eventuell sowieso vergeblich, es deuten zu wollen,
denn in jeder Deutung ist das Rätsel bereits wieder enthalten,
nur etwas weiter in der Tiefe verrückt, aber was ändert dies !?

Analysis of GPS signal jammer: a powerful tool to protect privacy and security

Jammer B. | 01.04.2024 0 0

When purchasing and using a mortgaged car, it is best to equip it with a GPS jammer within a certain period of time. Especially for friends who are collecting cars from car dealers or buying mortgaged cars, that is to say, as soon as you receive the car, you can turn on the GPS jammer and put one in the car and one in the trunk! Turning on the jammer can ensure that you have no worries during the time when you pick up the car and return. However, the jammer cannot be turned on 24 hours a day, so after arriving safely at your own site, you must find professional personnel to check the GPS yourself. At the same time, install a GPS positioning device and a secret lock, change the key code, and other security measures to prevent mishaps.
https://www.silencejammer.com/
Meet the GPS Jammer

GPS jammers (jammers) can effectively prevent being tracked by GPS satellites, effectively interfere with GPS satellite signals, and protect your whereabouts privacy and information confidentiality.

Disadvantages of GPS locator

It has to be said that GPS jammers also have disadvantages for users. The signal jammer can only be turned on temporarily and cannot be turned on forever. As long as he turns off the jammer, the GPS locator will have a signal again. Car owners can quickly find their stolen vehicles based on

location information.

In addition to signal jammers, some may say that they will use signal detectors to find and destroy the GPS locator. Yes, this is true, but it only works for some GPS devices. If the GPS locator is dormant most of the time, the signal detector will have no way to detect it! why?
For example, some ultra-long-standby GPS locators only wake up once a day. After waking up, they immediately transmit the car's positioning information back to the owner's mobile phone platform and then go into sleep state again. In the sleep state, they have no signal at all. , it is absolutely impossible for a car thief to detect it! In addition, it is wireless and requires no installation. There is no wiring on the surface of the device and it can be placed anywhere in the car (as long as it is not placed in a place where the signal is blocked). It is very concealed and safe.

How to use GPS jammer

The GPS jammer can indeed block the GPS signal, but it has the disadvantage that it will block all signals in the car! In other words, it is impossible for a car thief to use mobile phones and other communication devices around the car. If he cannot find and destroy the GPS device, then he can only turn on the jammer forever, otherwise, sooner or later, his whereabouts will be exposed. So how to use a GPS jammer needs to do the following:

1. You can use a GPS jammer during the pick-up and return journey, so you don’t have to be afraid even if there are tricks.

2. When you return to your own place, don’t shut it down yet. Go to an auto repair shop for major disassembly first. Make sure it is completely removed and then close it.

3. For safety reasons, a car can use the GPS jammer continuously for more than half a year. And ensure that the GPS jammer can work normally 24 hours a day.

Diversified anti-drone means in modern warfare

Jammer B. | 02.04.2024 0 0

In view of the threats posed by drones on the battlefield, countries have launched countermeasures in recent years. The US military lists drones as one of the most destructive aerial threats and has formulated a "Counter-UAV System Strategy" to deal with them. The Russian army has listed drone defense operations as an important task and is practicing anti-drone combat technology on the Syrian battlefield. The UK has made combating swarm drones a top priority and is exploring combat methods using radio frequency suppressors to interfere with swarm drone links.
https://www.silencejammer.com/

Generally speaking, the current main anti-UAV means include electronic jamming, artillery and missile hard kill, high-energy laser weapons and high-power microwave weapon interception.

Among them, electronic interference blocking is the most effective countermeasure. Drones rely on communication links to operate, and communication links are most afraid of electromagnetic interference. By transmitting high-power radio frequency signals to the drone, the control program can be disrupted, making it unable to perform its mission or crash the aircraft. The lightweight air defense integrated system equipped by the U.S. Marine Corps is an electronic jamming system for drones. The system consists of a command vehicle and a jamming vehicle equipped with tactical air surveillance radar, small electro-optical/infrared cameras, radio frequency detection systems and radio frequency jammers, which can detect, track, identify drones and use electronic attacks Means to make an emergency landing. In July 2019, the lightweight air defense integrated system mounted on the USS Boxer amphibious assault ship successfully made an emergency landing of an Iranian drone. Iran also used similar means to take over a US military Sentinel stealth drone.

The interception fire network composed of traditional anti-aircraft artillery and missiles is currently one of the main means to deal with drone operations. The Russian "Tor" M1 field air defense system adopts a vertical launch method, and the missile responds quickly. It has shot down many types of drones, including the Turkish TB-2. However, the Russian-made Pantsir S1 missile-cannon integrated air defense system, which is also a "sharp weapon" for close-range air defense, was destroyed by drones in actual combat.

When dealing with "low, slow and small" drones, laser beams have demonstrated the advantages of speed, flexibility, precision, and high cost-effectiveness. For example, the 50-kilowatt high-energy laser air defense system launched by Germany's Rheinmetall is equipped with three laser beam emitters and uses beam folding technology to increase power and can effectively deal with various aerial targets including drones.

High-energy microwave weapons can deal with drone swarms. High-energy microwave weapons attack UAV electronic systems through high-power microwave beams with directional radiation. It is a new concept weapon that integrates soft/hard killing capabilities. Compared with high-energy laser weapons, microwave weapons have a longer range, are less affected by weather, and have more convenient fire control, making them suitable for dealing with drone swarm attacks. The solid-state microwave weapon system being developed by the US military has shot down dozens of drones during tests.

Why is there still signal on my phone after turning on the cell phone signal jam

Jammer B. | 03.04.2024 0 0

In today's highly information-based society, with the continuous development of communication technology, people have higher and higher demands for communication security and privacy protection. Cell phone jammers are widely used as a countermeasure to prevent communications from being eavesdropped or tracked. However, sometimes people find that even if the cell phone signal jammer is turned on, the phone can still receive the signal. What is the reason behind this phenomenon?
https://www.silencejammer.com/

First, let’s understand how a cell phone signal jammer works. A mobile phone signal jammer is a device that can block mobile phone signals. It emits radio frequency signals of a specific frequency and phase to offset the mobile phone signals, thereby achieving a shielding effect. In theory, a mobile phone signal jammer can block the signal transmission between the mobile phone and the communication base station, making the mobile phone unable to communicate normally.

In fact, the mobile phone signal jammer is not an absolutely effective device, and it also has certain limitations and shortcomings. First of all, the mobile phone signal jammer is mainly aimed at the signal transmission between the mobile phone and the communication base station, and has no direct interference effect on other signals (such as Wi-Fi, Bluetooth, etc.). Secondly, the interference range and interference effect of mobile phone signal jammers are affected by environmental and technical factors, and cannot fully cover all communication equipment and scenarios. Therefore, even if the mobile phone signal jammer is turned on, the mobile phone may still receive other signals, causing the signal to still exist.

In the process of protecting communication security and privacy, people should take multiple precautions to improve the effectiveness of security. In addition to using mobile phone signal blockers, you can also combine other measures, such as regularly updating mobile phone systems and applications, setting privacy permissions, and avoiding turning on positioning functions in public places, to strengthen the protection of communication security and privacy.

What are the interference effects of improving mobile phone jammers on 5G?

Jammer B. | 05.04.2024 0 0

With the gradual popularization and application of 5G technology, people's attention to communication security and privacy protection is also increasing. As a preventive measure, mobile phone jammers have attracted much attention for their interference effect on 5G signals. In this context, people hope to understand how to improve the interference effect of mobile phone jammers on 5G to better protect personal privacy and communication security. This article will explore this issue and cite relevant news literature to provide readers with an in-depth understanding. https://www.silencejammer.com/

Development and application of 5G technology
First, we need to understand the development and application of 5G technology. 5G is the fifth generation of mobile communication technology. It has higher transmission speed, lower latency and larger capacity, providing people with a faster, more stable and efficient communication experience. However, with the popularization of 5G technology, it has also brought about some security and privacy issues, such as being eavesdropped and tracked.

How cell phone jammers work
Next, let’s understand how cell phone jammers work. A mobile phone jammer is a device that can interfere with mobile communication signals. It emits radio frequency signals of a specific frequency and phase to offset the mobile phone signals, thereby achieving the interference effect. In theory, mobile phone jammers can interfere with signal transmission between mobile phones and communication base stations, thereby preventing communication content from being eavesdropped or tracked.

Improve the interference effect of mobile phone jammers on 5G
Based on the characteristics and transmission methods of 5G technology, there are some methods to improve the interference effect of mobile phone jammers on 5G:

Optimize frequency and power adjustment: 5G technology uses higher frequency communication bands, so it is necessary to optimize the frequency range of 5G and adjust the frequency and power of interference signals to enhance the interference effect on 5G signals.

Strengthen the interference range coverage: Optimize the antenna system design, expand the interference range coverage, and ensure that all 5G signals in the target area are effectively interfered.

Improve anti-interference ability: Use advanced anti-interference technology to improve the stability and anti-interference ability of interference signals to withstand various complex environments and signal interference.

Technical challenges and solutions
However, there are still some technical challenges to improve the interference effect of mobile phone jammers on 5G, such as the continuous development and updating of 5G technology and the particularity of the 5G frequency band. Therefore, the technology of mobile phone jammers needs to be constantly upgraded and improved to cope with new communication technologies and equipment. In addition, strengthening supervision and legal regulations and cracking down on the illegal use of mobile phone jammers are also important measures to ensure communication security and social stability.

5 Conclusion
To sum up, improving the interference effect of mobile phone jammers on 5G requires a series of technical means and measures, including optimizing frequency and power adjustment, strengthening interference range coverage, and improving anti-interference capabilities. Although facing some technical challenges, with the continuous development and improvement of technology, mobile phone jammers are expected to play a more important role in preventing 5G communication security issues. In the future, we can expect more innovation and progress to provide more effective solutions for protecting communication security and personal privacy.

Some applications of low-slow and small UAV countermeasures and characteristics

Jammer B. | 08.04.2024 0 0

1. Reconnaissance system

(1) Spectrum monitoring

Spectrum monitoring realizes the detection of intruding unknown aircraft and remote controllers by measuring the incoming wave direction of aircraft image transmission signals and the incoming wave direction of remote control signals in real time. It can conduct reconnaissance on aircraft command and control signals and digital transmission signals in the 0.4-6GHz broadband, obtain relevant information about command and data transmission signals, and generate corresponding interference patterns based on the characteristics of aircraft command and data transmission signals to guide jammers to implement interference. The handheld reconnaissance equipment can direct the aircraft control signal source within 200m according to the signal strength.
https://www.silencejammer.com/

(2) Three-coordinate phased array low-altitude surveillance radar

A fully phased array radar is used for network detection to detect, track and locate multiple batches of targets in a large area in real time. Mainly aimed at low-altitude (100 meters to 3000 meters), small (RCS = 0.01-10㎡), and slow (3km/h-400km/h) targets, a single radar can complete the detection of low-altitude flying targets in a near-field environment. Video tracking, jamming and induction, aircraft capture and aircraft strike provide precise positioning (azimuth, altitude, distance).


Photoelectric tracking

(3) Photoelectric tracking

Optoelectronic tracking has the characteristics of all-weather, fast speed, wide coverage, large visual range, and stable and clear images. It can discover, identify and confirm targets through 2 million day and night network cameras during the day and through high-performance uncooled infrared thermal imaging systems at night. .

2. Interference system

(1) Adaptive suppression jammer

The adaptive suppression jammer adopts ultra-wideband frequency jamming technology, which can not only jam and suppress aircraft command signals in three fixed frequency bands at 5Km: GPS/GLONASS, 2.4GWIFI frequency band, and 5.8GWIFI frequency band. The system processor can also communicate with the spectrum monitoring system. In combination, the relevant characteristics of the target signal are analyzed and the corresponding interference method is adaptively generated and the relevant information is written into the interference source, thereby achieving more effective interference.

(2) Deceptive jammer

Deceptive jammers send false GPS signals to the aircraft's control system to deceive and block the aircraft's satellite navigation components, thereby controlling the navigation system and inducing the aircraft to fly to the wrong location, thereby achieving the purpose of controlling black-flying aircraft.

3. Composition of low-altitude monitoring and countermeasures integrated platform

The aircraft monitoring and countermeasures system management software effectively integrates the functions of various modules and equipment on one map for management and use. These include map positioning module, video surveillance module, alarm module, linkage attack and equipment management module, etc. Among them, the map positioning module is used for spectrum detection, radar monitoring and positioning; the video module includes real-time video captured by ordinary telephoto lenses and infrared thermal imaging equipment; the alarm module integrates spectrum detection, radar monitoring and alarm; the linkage strike module integrates aircraft The use of equipment such as nets, interference equipment, GPS induction and microwave rejection are integrated; the equipment management module monitors the equipment status of each equipment.

Some applications of low-slow and small UAV countermeasures and characteristics

Jammer B. | 08.04.2024 0 0

1. Reconnaissance system

(1) Spectrum monitoring

Spectrum monitoring realizes the detection of intruding unknown aircraft and remote controllers by measuring the incoming wave direction of aircraft image transmission signals and the incoming wave direction of remote control signals in real time. It can conduct reconnaissance on aircraft command and control signals and digital transmission signals in the 0.4-6GHz broadband, obtain relevant information about command and data transmission signals, and generate corresponding interference patterns based on the characteristics of aircraft command and data transmission signals to guide jammers to implement interference. The handheld reconnaissance equipment can direct the aircraft control signal source within 200m according to the signal strength.
https://www.silencejammer.com/

(2) Three-coordinate phased array low-altitude surveillance radar

A fully phased array radar is used for network detection to detect, track and locate multiple batches of targets in a large area in real time. Mainly aimed at low-altitude (100 meters to 3000 meters), small (RCS = 0.01-10㎡), and slow (3km/h-400km/h) targets, a single radar can complete the detection of low-altitude flying targets in a near-field environment. Video tracking, jamming and induction, aircraft capture and aircraft strike provide precise positioning (azimuth, altitude, distance).


Photoelectric tracking

(3) Photoelectric tracking

Optoelectronic tracking has the characteristics of all-weather, fast speed, wide coverage, large visual range, and stable and clear images. It can discover, identify and confirm targets through 2 million day and night network cameras during the day and through high-performance uncooled infrared thermal imaging systems at night. .

2. Interference system

(1) Adaptive suppression jammer

The adaptive suppression jammer adopts ultra-wideband frequency jamming technology, which can not only jam and suppress aircraft command signals in three fixed frequency bands at 5Km: GPS/GLONASS, 2.4GWIFI frequency band, and 5.8GWIFI frequency band. The system processor can also communicate with the spectrum monitoring system. In combination, the relevant characteristics of the target signal are analyzed and the corresponding interference method is adaptively generated and the relevant information is written into the interference source, thereby achieving more effective interference.

(2) Deceptive jammer

Deceptive jammers send false GPS signals to the aircraft's control system to deceive and block the aircraft's satellite navigation components, thereby controlling the navigation system and inducing the aircraft to fly to the wrong location, thereby achieving the purpose of controlling black-flying aircraft.

3. Composition of low-altitude monitoring and countermeasures integrated platform

The aircraft monitoring and countermeasures system management software effectively integrates the functions of various modules and equipment on one map for management and use. These include map positioning module, video surveillance module, alarm module, linkage attack and equipment management module, etc. Among them, the map positioning module is used for spectrum detection, radar monitoring and positioning; the video module includes real-time video captured by ordinary telephoto lenses and infrared thermal imaging equipment; the alarm module integrates spectrum detection, radar monitoring and alarm; the linkage strike module integrates aircraft The use of equipment such as nets, interference equipment, GPS induction and microwave rejection are integrated; the equipment management module monitors the equipment status of each equipment.

Some applications of low-slow and small UAV countermeasures and characteristics

Jammer B. | 08.04.2024 0 0

1. Reconnaissance system

(1) Spectrum monitoring

Spectrum monitoring realizes the detection of intruding unknown aircraft and remote controllers by measuring the incoming wave direction of aircraft image transmission signals and the incoming wave direction of remote control signals in real time. It can conduct reconnaissance on aircraft command and control signals and digital transmission signals in the 0.4-6GHz broadband, obtain relevant information about command and data transmission signals, and generate corresponding interference patterns based on the characteristics of aircraft command and data transmission signals to guide jammers to implement interference. The handheld reconnaissance equipment can direct the aircraft control signal source within 200m according to the signal strength.
https://www.silencejammer.com/

(2) Three-coordinate phased array low-altitude surveillance radar

A fully phased array radar is used for network detection to detect, track and locate multiple batches of targets in a large area in real time. Mainly aimed at low-altitude (100 meters to 3000 meters), small (RCS = 0.01-10㎡), and slow (3km/h-400km/h) targets, a single radar can complete the detection of low-altitude flying targets in a near-field environment. Video tracking, jamming and induction, aircraft capture and aircraft strike provide precise positioning (azimuth, altitude, distance).


Photoelectric tracking

(3) Photoelectric tracking

Optoelectronic tracking has the characteristics of all-weather, fast speed, wide coverage, large visual range, and stable and clear images. It can discover, identify and confirm targets through 2 million day and night network cameras during the day and through high-performance uncooled infrared thermal imaging systems at night. .

2. Interference system

(1) Adaptive suppression jammer

The adaptive suppression jammer adopts ultra-wideband frequency jamming technology, which can not only jam and suppress aircraft command signals in three fixed frequency bands at 5Km: GPS/GLONASS, 2.4GWIFI frequency band, and 5.8GWIFI frequency band. The system processor can also communicate with the spectrum monitoring system. In combination, the relevant characteristics of the target signal are analyzed and the corresponding interference method is adaptively generated and the relevant information is written into the interference source, thereby achieving more effective interference.

(2) Deceptive jammer

Deceptive jammers send false GPS signals to the aircraft's control system to deceive and block the aircraft's satellite navigation components, thereby controlling the navigation system and inducing the aircraft to fly to the wrong location, thereby achieving the purpose of controlling black-flying aircraft.

3. Composition of low-altitude monitoring and countermeasures integrated platform

The aircraft monitoring and countermeasures system management software effectively integrates the functions of various modules and equipment on one map for management and use. These include map positioning module, video surveillance module, alarm module, linkage attack and equipment management module, etc. Among them, the map positioning module is used for spectrum detection, radar monitoring and positioning; the video module includes real-time video captured by ordinary telephoto lenses and infrared thermal imaging equipment; the alarm module integrates spectrum detection, radar monitoring and alarm; the linkage strike module integrates aircraft The use of equipment such as nets, interference equipment, GPS induction and microwave rejection are integrated; the equipment management module monitors the equipment status of each equipment.

Some applications of low-slow and small UAV countermeasures and characteristics

Jammer B. | 08.04.2024 0 0

1. Reconnaissance system

(1) Spectrum monitoring

Spectrum monitoring realizes the detection of intruding unknown aircraft and remote controllers by measuring the incoming wave direction of aircraft image transmission signals and the incoming wave direction of remote control signals in real time. It can conduct reconnaissance on aircraft command and control signals and digital transmission signals in the 0.4-6GHz broadband, obtain relevant information about command and data transmission signals, and generate corresponding interference patterns based on the characteristics of aircraft command and data transmission signals to guide jammers to implement interference. The handheld reconnaissance equipment can direct the aircraft control signal source within 200m according to the signal strength.
https://www.silencejammer.com/

(2) Three-coordinate phased array low-altitude surveillance radar

A fully phased array radar is used for network detection to detect, track and locate multiple batches of targets in a large area in real time. Mainly aimed at low-altitude (100 meters to 3000 meters), small (RCS = 0.01-10㎡), and slow (3km/h-400km/h) targets, a single radar can complete the detection of low-altitude flying targets in a near-field environment. Video tracking, jamming and induction, aircraft capture and aircraft strike provide precise positioning (azimuth, altitude, distance).


Photoelectric tracking

(3) Photoelectric tracking

Optoelectronic tracking has the characteristics of all-weather, fast speed, wide coverage, large visual range, and stable and clear images. It can discover, identify and confirm targets through 2 million day and night network cameras during the day and through high-performance uncooled infrared thermal imaging systems at night. .

2. Interference system

(1) Adaptive suppression jammer

The adaptive suppression jammer adopts ultra-wideband frequency jamming technology, which can not only jam and suppress aircraft command signals in three fixed frequency bands at 5Km: GPS/GLONASS, 2.4GWIFI frequency band, and 5.8GWIFI frequency band. The system processor can also communicate with the spectrum monitoring system. In combination, the relevant characteristics of the target signal are analyzed and the corresponding interference method is adaptively generated and the relevant information is written into the interference source, thereby achieving more effective interference.

(2) Deceptive jammer

Deceptive jammers send false GPS signals to the aircraft's control system to deceive and block the aircraft's satellite navigation components, thereby controlling the navigation system and inducing the aircraft to fly to the wrong location, thereby achieving the purpose of controlling black-flying aircraft.

3. Composition of low-altitude monitoring and countermeasures integrated platform

The aircraft monitoring and countermeasures system management software effectively integrates the functions of various modules and equipment on one map for management and use. These include map positioning module, video surveillance module, alarm module, linkage attack and equipment management module, etc. Among them, the map positioning module is used for spectrum detection, radar monitoring and positioning; the video module includes real-time video captured by ordinary telephoto lenses and infrared thermal imaging equipment; the alarm module integrates spectrum detection, radar monitoring and alarm; the linkage strike module integrates aircraft The use of equipment such as nets, interference equipment, GPS induction and microwave rejection are integrated; the equipment management module monitors the equipment status of each equipment.

Some applications of low-slow and small UAV countermeasures and characteristics

Jammer B. | 08.04.2024 0 0

1. Reconnaissance system

(1) Spectrum monitoring

Spectrum monitoring realizes the detection of intruding unknown aircraft and remote controllers by measuring the incoming wave direction of aircraft image transmission signals and the incoming wave direction of remote control signals in real time. It can conduct reconnaissance on aircraft command and control signals and digital transmission signals in the 0.4-6GHz broadband, obtain relevant information about command and data transmission signals, and generate corresponding interference patterns based on the characteristics of aircraft command and data transmission signals to guide jammers to implement interference. The handheld reconnaissance equipment can direct the aircraft control signal source within 200m according to the signal strength.
https://www.silencejammer.com/

(2) Three-coordinate phased array low-altitude surveillance radar

A fully phased array radar is used for network detection to detect, track and locate multiple batches of targets in a large area in real time. Mainly aimed at low-altitude (100 meters to 3000 meters), small (RCS = 0.01-10㎡), and slow (3km/h-400km/h) targets, a single radar can complete the detection of low-altitude flying targets in a near-field environment. Video tracking, jamming and induction, aircraft capture and aircraft strike provide precise positioning (azimuth, altitude, distance).


Photoelectric tracking

(3) Photoelectric tracking

Optoelectronic tracking has the characteristics of all-weather, fast speed, wide coverage, large visual range, and stable and clear images. It can discover, identify and confirm targets through 2 million day and night network cameras during the day and through high-performance uncooled infrared thermal imaging systems at night. .

2. Interference system

(1) Adaptive suppression jammer

The adaptive suppression jammer adopts ultra-wideband frequency jamming technology, which can not only jam and suppress aircraft command signals in three fixed frequency bands at 5Km: GPS/GLONASS, 2.4GWIFI frequency band, and 5.8GWIFI frequency band. The system processor can also communicate with the spectrum monitoring system. In combination, the relevant characteristics of the target signal are analyzed and the corresponding interference method is adaptively generated and the relevant information is written into the interference source, thereby achieving more effective interference.

(2) Deceptive jammer

Deceptive jammers send false GPS signals to the aircraft's control system to deceive and block the aircraft's satellite navigation components, thereby controlling the navigation system and inducing the aircraft to fly to the wrong location, thereby achieving the purpose of controlling black-flying aircraft.

3. Composition of low-altitude monitoring and countermeasures integrated platform

The aircraft monitoring and countermeasures system management software effectively integrates the functions of various modules and equipment on one map for management and use. These include map positioning module, video surveillance module, alarm module, linkage attack and equipment management module, etc. Among them, the map positioning module is used for spectrum detection, radar monitoring and positioning; the video module includes real-time video captured by ordinary telephoto lenses and infrared thermal imaging equipment; the alarm module integrates spectrum detection, radar monitoring and alarm; the linkage strike module integrates aircraft The use of equipment such as nets, interference equipment, GPS induction and microwave rejection are integrated; the equipment management module monitors the equipment status of each equipment.

GPS signal jammer: the hidden technological undercurrent

Jammer B. | 09.04.2024 0 0

With the rapid development of technology, GPS signal jammers have gradually emerged as a controversial technology. This article will delve into the definition, working principle and impact of GPS signal jammers on society, aiming to fully understand the characteristics and potential risks of this technology.

A GPS signal jammer, also known as a GPS jammer, is a device designed to interfere with or block the normal functioning of a GPS receiver by emitting electromagnetic waves of specific frequencies. It can be used to prevent GPS devices from acquiring satellite signals, thereby rendering the positioning system ineffective.
https://www.silencejammer.com/

Application of GPS signal jammer
1. Military use
In some military operations, in order to prevent the enemy from using GPS for navigation and positioning, the military may use GPS signal jammers to create an environment where positioning cannot be performed and increase the confidentiality of military operations;

2. Anti-theft and privacy protection
Some vehicle anti-theft systems and situations with high privacy protection requirements may use GPS signal jammers to prevent the vehicle from being tracked or located, or to prevent the GPS navigation device from leaking location information;

3. Illegal purposes
However, some criminals may also use GPS signal jammers to carry out illegal activities, such as cheating in exams, evading supervision, and committing crimes. This raises concerns about misuse of the technology.

Social Impact and Laws and Regulations

1. Safety hazards
The misuse of GPS signal jammers may lead to safety hazards such as traffic accidents and navigation system failures, posing potential threats to society;

2. Ethical and regulatory issues
The misuse of technology has triggered a series of ethical and regulatory issues involving privacy, network security and other aspects. Countries have introduced relevant laws and regulations to regulate the legal use and abuse of GPS signal jammers.

Technological Progress and Countermeasures

1. Technological progress
With the continuous development of technology, some advanced GPS signal jammers may have stronger anti-interference capabilities, and some new positioning technologies are gradually being applied to slow down the impact of GPS signal jammers;

2. Countermeasures
In response to the abuse of GPS signal jammers, scientific research institutions and related industries are also developing a series of countermeasures, including improving the anti-interference ability of GPS receivers and strengthening regulatory supervision to ensure the normal and safe use of GPS technology.

As a technology, GPS signal jammer can play a positive role in some special occasions with its reasonable application. However, its misuse may pose a threat to social stability and personal privacy. By in-depth understanding of its working principle, application fields and social impact, we can better understand the dual nature of this technology, aiming to manage and use it more scientifically. In the future, society should strengthen supervision and the formulation of regulations to ensure that the use of GPS signal jammers is within the scope of legal compliance and does not harm public safety and social order.